Series PF3W digital flow switch is perfect for applications requiring a constantly monitored flow of cooling or cleaning water. The PF3W series has been improved both in design and operating performance over the PF2W flow switch. Depending on the selected model, the PF3W is up to 40% smaller in volume, offering improved piping space and flexibility. Designed to work with fluids up to 90ºC
Series PF3W digital flow switch is perfect for applications requiring a constantly monitored flow of cooling or cleaning water. The PF3W series has been improved both in design and operating performance over the PF2W flow switch. Depending on the selected model, the PF3W is up to 40% smaller in volume, offering improved piping space and flexibility. Designed to work with fluids up to 90ºC
Series PF3W digital flow switch is perfect for applications requiring a constantly monitored flow of cooling or cleaning water. The PF3W series has been improved both in design and operating performance over the PF2W flow switch. Depending on the selected model, the PF3W is up to 40% smaller in volume, offering improved piping space and flexibility. Designed to work with fluids up to 90ºC
Series PF3W digital flow switch is perfect for applications requiring a constantly monitored flow of cooling or cleaning water. The PF3W series has been improved both in design and operating performance over the PF2W flow switch. Depending on the selected model, the PF3W is up to 40% smaller in volume, offering improved piping space and flexibility. Designed to work with fluids up to 90ºC
Series PF3W digital flow switch is perfect for applications requiring a constantly monitored flow of cooling or cleaning water. The PF3W series has been improved both in design and operating performance over the PF2W flow switch. Depending on the selected model, the PF3W is up to 40% smaller in volume, offering improved piping space and flexibility. Designed to work with fluids up to 90ºC
Series PF3W digital flow switch is perfect for applications requiring a constantly monitored flow of cooling or cleaning water. The PF3W series has been improved both in design and operating performance over the PF2W flow switch. Depending on the selected model, the PF3W is up to 40% smaller in volume, offering improved piping space and flexibility. Designed to work with fluids up to 90ºC
Series PF3W digital flow switch is perfect for applications requiring a constantly monitored flow of cooling or cleaning water. The PF3W series has been improved both in design and operating performance over the PF2W flow switch. Depending on the selected model, the PF3W is up to 40% smaller in volume, offering improved piping space and flexibility. Designed to work with fluids up to 90ºC
Series PF3W digital flow switch is perfect for applications requiring a constantly monitored flow of cooling or cleaning water. The PF3W series has been improved both in design and operating performance over the PF2W flow switch. Depending on the selected model, the PF3W is up to 40% smaller in volume, offering improved piping space and flexibility. Designed to work with fluids up to 90ºC
Series PF3W digital flow switch is perfect for applications requiring a constantly monitored flow of cooling or cleaning water. The PF3W series has been improved both in design and operating performance over the PF2W flow switch. Depending on the selected model, the PF3W is up to 40% smaller in volume, offering improved piping space and flexibility. Designed to work with fluids up to 90ºC
Series PF3W digital flow switch is perfect for applications requiring a constantly monitored flow of cooling or cleaning water. The PF3W series has been improved both in design and operating performance over the PF2W flow switch. Depending on the selected model, the PF3W is up to 40% smaller in volume, offering improved piping space and flexibility. Designed to work with fluids up to 90ºC
99 High Precision Filter for Liquids FGH Series Filtration efficiency: 99% or more FGD FGE HEPO2element Filtration accuracy: 2, 4, 6 or 13 m (Filtration efficiency 99%) FGG FGA FGC Membrane element Filtration accuracy: 0.2 or 0.4 m (Filtration efficiency 99.9%) FGF FGH FGH FQ1 FN EB ES 61 High Precision Filter for Liquids FGH Series Filtration efficiency: 99% or more Prevents particle generation
Model determination 2 Sine Rodless Cylinder Series REA Model Selection Method 2 Precautions on Design 1 Selection Method 40 32 25 500 500 300 200 300 400 Recommended driving force: Fn(N) 200 300 Recommended driving force: Fn(N) Recommended driving force: Fn(N) 200 100 100 100 50 40 20 30 40 50 20 30 40 50 20 30 Usable
Model HEC001-W5A HEC001-W5B HEC003-W5A HEC003-W5B Cooling method Thermoelectric device (Thermo-module) Radiating method Water-cooled Control method Cooling/Heating automatic shift PID control 50 to 95F (10 to 35C), 35 to 80%RH (no condensation) Ambient temperature/humidity Circulating fluid Clear water, 20% ethylene glycol 50 to 140F (10 to 60C) (no condensation) Operating temp. range Circulating
Fc C (Fc) L1 (CF flange) J H B G A A (mm) Model A 110 120 171 B 38 48 66 C 1 1 2 D 30 40 55 Fn 34 70 Fc 17 26 41 G 40 39 63 H J P.C.D L1 6 x 4.4 6 x 6.6 L2 XMC-16 XMC-25 XMC-40 40 50 65 26 28 36 P.C.D 27 P.C.D 58.7 XMC-50 to 80/Angle type C L2 D Fd Fc L1 (KF flange) Fn C (K flange) (CF flange) H J K B G A A (mm) Model A 183 209 250 B 80 100 117 C 31 39 45.5 D 75 87 114 Fn 95 110 Fd
Body (Material: SCS13) Refer to the page 22 for the maintenance parts. 2 Series XMA, XYA Stainless steel High Vacuum Angle/In-line Valve Dimensions XMA/Angle type C D L2 (KF flange) Fn Fd Fc C (Fc) L1 (K flange) (CF flange) H B G A A (mm) Model A 103 113 158 170 196 235 B 38 48 66 79 100 117 C 1 1 2 2 3 3 D 30 40 55 75 87 114 Fn 95 110 Fd 34 70 114 Fc 17 26 41 52 70 83 G 40 39 63 68
Find the drive resisting force Fn (N) when moving the load horizontally. CY3B6 CY3B32 400 300 200 40 30 20 Allowable driving force Fn (N) Allowable driving force Fn (N) Allowable driving force Fn (N) Allowable driving force Fn (N) Allowable driving force Fn (N) Allowable driving force Fn (N) Allowable driving force Fn (N) Allowable driving force Fn (N) Allowable driving force Fn (N) 2.
Select the bore size from Lo and Fn based on data A .
XMC Exterior dimensions C D L1 L2 Fn Fc C (Fc) (KF Flange) (CF Flange) J H B A G A Unit:mm Model A B C D Fn Fc G H J P.C.D L1 L2 XMC-16 40 110 38 1 30 34 17 40 26 P.C.D 27 6x4.4 XMC-25 50 120 48 1 40 26 39 28 XMC-40 65 171 66 2 55 70 41 63 36 P.C.D. 58.7 6x6.6 C D L1 L2 Fn Fd Fc C (Fc) (KF Flange) (K Flange) (CF Flange) H J K B A G A Unit:mm Model A B C D Fn Fc Fd G H J K P.C.D L1 L2 XMC-
Allowable driving force Fn (N) Allowable driving force Fn (N) Allowable driving force Fn (N) Allowable driving force Fn (N) Allowable driving force Fn (N) 50 100 40 30 20 20 30 40 50 3. Select the bore size and type of magnet holding force (types H, L) from Lo and Fn based on data K A .
C D H B A G A mm A B C D E Fn Fd G H XLA-16-2 40 108 38 20 30 17 44 XLA-25-2 50 121 48 27 12 40 26 44 XLA-40-2 65 171 66 39 11 55 41 67 XLA-50-2 70 185 79 46 11 75 52 72 XLA-63-2 88 212 100 55 11 87 95 70 76 XLA-80-2 90 257 117 65 11 114 110 83 104 12 XL-OMY0001 6. 200 []1 1.5 1 200 FKM 110Pa <> 13 XL-OMY0001 7 7-1. 2 2P5P6 14 XL-OMY0001 7-2 1 2 1 3 1 1 2 4 1 0.4MPa G 3 4 2 XLA